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4/9/2014 Today: ◦ ◦ ◦ ◦ ◦ ◦ ◦ Redox Reactions Oxidations Reductions Oxidation Numbers Half Reactions Balancing in Acidic Solution Balancing in Basic Solution QUIZ 3 & EXAM 3 moved up by one day: ◦ Quiz 3 Wednesday/Thursday next week ◦ Exam 3 Monday, April 28th iClicker Participation Question: Synthesis Reactions: The opposite of Decomposition Consider the reaction to make (“synthesize”) sulfur hexafluoride from S8 & F2. When PROPERLY BALANCED, what is the stoichiometric coefficient on the fluorine? A. 2 ___ S8 + ___ F2 → ___ SF6 B. 3 C. 12 D. 24 To be properly balanced, a reaction must have the SMALLEST, WHOLE NUMBER coefficients. E. 48 Balance the following equation by inspection: __ H+ + __ Cr2O72- + __C2H5OH __ Cr3+ + __ H2O + __ CO2 (Note: this is a net ionic equation – number of atoms & CHARGE must be balanced.) 1 4/9/2014 Here is the balanced Net Ionic Equation: 16 H+ + 2 Cr2O72- + 1 C2H5OH 4 Cr3+ + 11 H2O + 2 CO2 Oxidation-Reduction Reaction o A reaction in which electrons are transferred from one species to another. o Many common chemical reactions are REDOX reactions: o “Rusting” or oxidation of metals Combustion reactions Single replacement reactions o Metabolism of sugars by our bodies o o 2 Na(s) + Cl2(g) 2 NaCl(s) In this synthesis reaction, electrons are transferred from sodium to chlorine: Two Na atoms lose an electron (oxidation): 2 Na 2 Na+ + 2 e Each Cl gains an electron (reduction): Cl2 + 2 e- 2 Cl The above reactions are called half-reactions, as each represents ½ of the actual reaction. 2 4/9/2014 Oxidation States (Numbers) Oxidation Numbers are a convenient way to keep track of electrons in REDOX reactions. Oxidation numbers are SIMILAR to charge, but they are NOT the same thing. Oxidation numbers may be assigned to elements in compounds in which electrons are shared – not just to charged species. Assigning Oxidation Numbers 1. The oxidation number of atoms in their elemental form is zero. 2. The oxidation state of monatomic ions is the same as the charge. 3. The oxidation state of fluorine is always -1 in its compounds. 4. The oxidation state of other halogens (Cl, Br, I) is -1 unless combined with O, F, or a more reactive halogen. In these cases assign using rule #7. Assigning Oxidation Numbers (cont.) 5. Oxygen is almost always assigned an oxidation number of -2 in its compounds. (Exceptions: OF2, peroxides and superoxides) 6. The oxidation state of Hydrogen in compounds is usually +1. (Exception: In binary compounds with metals, hydrogen acts as the hydride ion, H-1) 3 4/9/2014 Assigning Oxidation Numbers (cont.) 7. All other oxidation numbers may be assigned by the following principles: The sum of the oxidation states in a neutral compound must equal zero. The sum of the oxidation states in a polyatomic ion must equal the charge on the ion. Oxidation- Reduction Reaction CH4 + 2 O2 CO2 + 2 H2O In the above reaction, assign oxidation numbers to all elements. Carbon is losing electrons. It is called the REDUCING AGENT. Carbon is OXIDIZED. Its oxidation number is being increased. Oxygen is gaining electrons. It is called the OXIDIZING AGENT. Oxygen is REDUCED. Its oxidation number is being reduced. Oxidizing & Reducing Agents In an oxidation-reduction reaction, the species (atom, ion, or molecule) that is being oxidized is giving its electrons to another species, causing it to be reduced. The species that is being oxidized is also called the reducing agent. In an oxidation-reduction reaction, the species that is being reduced is taking electrons from another species, causing it to be oxidized. The species that is being reduced is also called the oxidizing agent. 4 4/9/2014 LEO the lion goes GER LEO = Losing Electrons Oxidation GER = Gaining Electrons Reduction iClicker Participation Question: Redox Reactions Consider the unbalanced reaction below of copper metal reacting with nitric acid to produce copper (II) nitrate and nitrogen dioxide. What is the reducing agent? A. Cu(s) Cu(s) + HNO3(aq) → Cu(NO3)2(aq) + NO2 B. HNO3(aq) C. Cu(NO3)2(aq) D. NO2(g) E. None of the above Oxidizing & Reducing Agents SiCl4 + 2 Mg 2 MgCl2 + Si The species (atom, ion, or molecule) that is oxidized is called the reducing agent. The species that is reduced is called the oxidizing agent. In the above reaction, what is being oxidized? What is being reduced? What is the oxidizing agent? What is the reducing agent? 5 4/9/2014 Oxidizing & Reducing Agents Al + MnO4- MnO2 + Al(OH)3 Consider the above, UNBALANCED redox reaction. Assign oxidation numbers to each atom. What is being oxidized? What is being reduced? What is the oxidizing agent? What is the reducing agent? Balancing Redox Equations: The Method of ½ Reactions Balance the reaction: MnO4- + Fe+2 Fe+3 + Mn+2 in acidic (H+) aqueous solution (H2O). Step 1 Identify as an oxidation-reduction reaction. Assign oxidation numbers (only if needed). Step 2 Separate into ½-reactions: Oxidation & Reduction Step 3 A) Balance the ½-reactions for mass: Balance all atoms except H or O (unless they are the oxidized or reduced species). Balance O with waters (H2O). Balance H with acid (H+ ions). B) Balance ½-reactions for charge: ADD e (e- is a product in oxidation reactions and a reactant in reduction reactions.) 6 4/9/2014 Step 4 Multiply ½-reactions by appropriate factors to equalize electrons in the oxidation and reduction ½ reactions. Step 5 Add ½-reactions together to get the overall reaction. ELECTRONS SHOULD CANCEL AT THIS POINT. Step 6 DOUBLE CHECK to see that reaction is balanced for charge and # of atoms. Balance the following Reactions: 1. Cu(s) + NO3-(aq) Cu2+(aq) + NO(g) in acidic aqueous solution. 2. Cr2O72-(aq) + C2H5OH(aq) Cr3+(aq) + CO2(g) in acidic aqueous solution. Disproportionation An oxidation-reduction reaction in which the reactant is both oxidized and reduced. Balance the following redox reaction in acidic aqueous solution: Cl2(g) Cl-(aq) + ClO2-(aq) 7 4/9/2014 Balancing redox reactions in BASIC (OH-) aqueous (H2O) solution: 1) Balance as if in ACIDIC solution. 2) Add OH- ions equal to the number of H+ ions to BOTH SIDES of the equation. 3) Combine OH- and H+ ions on the same side into waters. Cancel waters. 4) Check balancing for charge and # of atoms. Balance the following reactions in BASIC solution. A. NO2-(aq) + Al(s) NH3(g) + AlO2-(aq) B. Ag(s) + CN-(aq) + O2(g) AgCN(s) + H2O(l) Redox Titration What is the concentration of sodium oxalate (Na2C2O4) if a 50.0 mL sample of solution requires 42.77 mL of 0.164 M KMnO4 to fully titrate it? Redox titrations The previous titration examples we have considered were all acid-base titrations. However, we can measure the number of moles by titration for other types of reactions as well. If the substance to be measured will react with another compound in such a way that we can observe an endpoint (such as with an indicator), titration may be useful. 8